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A complementary view from the DIGOIDUNA study
http://www.digoiduna.eu/
Paolo Bouquet, University of Trento, [email protected]
SMART 2010/0054Contract N. 30-CE-0395470/00-32
Commonalities in objectives and methodology
DIGOIDUNA Analysis of the role of PIDs for digital
objects and authors as enablers of value in scientific data e-Infrastructures (SDIs)
Scenarios of the beneficial impact of PIDs for digital objects and authors in e-science
A SWOT analysis of the current situation to identify opportunities and challenges to implement effective and interoperable PID solutions within SDIs
ODIN Analysis of the role of PIDs for people
and data to develop a global interoperable data exchange framework enabling data sharing, attribution and discovery
Use cases of interoperability between data and author identifiers conceptual model of interoperability
SWOT and GAP analysis to identify how PIDs for people and data are used within key stakeholder communities and what it is needed to develop an interoperable PID layer at the basis of the framework
Commonalities in objectives and methodology
DIGOIDUNA
Proposing ACTIONS to develop an open and sustainable e-infrastructure for digital objects and author PIDs
Stakeholder participation and validation
Multidimensional and cross-boundary view
Exploiting the potential of the emerging LOD approach
ODIN
RECOMMENDATIONS for future ACTIONS to fill the identified gaps
Stakeholder participation and validation + disciplinary proofs of concept
Cross-boundary view (e.g. cross-disciplinary perspective in the two proofs of concept in HSS and HEP) and internationalization
Exploiting the potential of the emerging LOD approach
Focus and Core services
DIGOIDUNA
Quality Assessment
Provenance
Access
ODIN
Access
Discovery
Interoperability
Sustainability
Commonalities in the general approach
“Don’t reinvent the wheel” principle…INTEROPERABILITY is the key issue
Building a common understanding and agreeing on common objectives before addressing technological issues
Cross-boundary perspective (cross-disciplinary, cross-nation, cross-organizations…)
Added-value services to incentivize the adoption of a trusted open interoperability infrastructure
Collaboration across stakeholders to define objectives, policies, services…
COMMON KEYWORDS
INTEROPERABILITY
COORDINATION
COLLABORATION
AWARENESS
INCENTIVES
SUSTAIANBILITY
ADDED-VALUE SERVICES
The RING of TRUST
Building on the DIGOIDUNA findings…
Supporting coordination: the main actions
Bootstrap DIs in SDIs
Mobilise
Define the DIs agenda
Sustainability
Define the PDIs agenda
Define the DIs agenda
1. Defining the common objectives and organize
them into a list of workable temporal priorities.2. Agreeing on a shared governance model, which
defines devolved responsibilities amongst stakeholders and ensures long-term sustainability.
3. Sharing a conceptual framework in which the basic technical parameters and the fundamental services are introduced and described.
4. Planning interventions to promote awareness, dissemination and education activities aiming at expanding and reinforcing DI knowledge and skills.
Define the PDIs agenda
Creating a common conceptual framework and an agreed roadmap before addressing technical issues.
Involving different stakeholder communities in the definition of the project objectives, in defining a common roadmap and in the design, implementation and adoption of the PID interoperability layer. Key aspects: • Current use of PID systems• Common needs and concrete requirements• Specific requirements of niche communities• Required services • Gaps• Recommendations
Dissemination activities to promote general consensus and build shared understanding and internationalization.
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Define the DIs agenda
Focus on specific needs of individual stakeholders as well as cross boundary focus on common aspects and requirements.
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ADDITIONAL ASPECTS to be considered:
Temporal priorities in defining the agenda Agreeing on responsibilities with key stakeholders Including the proposed solution in the EC agenda and working on
the implementation of an agreed governance model
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Bootstrapping DIs in SDIs
Bootstrap DIs in SDIs
1. Reinforce, promote and secure EU wide institutional coordination among vertical and regional clusters of e-infrastructure stakeholders (common policies on the governance of identifiers for digital objects and authors).
2. Funding bodies must provide initial support to seed initiatives, which aim at implementing the coordination model defined in the agenda and at creating a critical mass of coordinated DI systems.
3. Promote awareness and skills development to enable different stakeholders to participate effectively on DI initiatives and infrastructures.
4. Work towards systematic implementation of technical and organisational factors that underpin trust in identifiers, their reliability as a key component of SDIs - secure their operational management.
Rising awareness by proofs of concepts and involving scientific communities with no experience in PIDs for data and contributors.
Promote coordination and Interoperability between local and community specific solutions.
Seeding funding to sustain emerging PID infrastructures.
Enabling third-party services and other tangible outputs (e.g. proofs of concept) to provide evidence of the reliability and the added-value of the solution. Promoting the convergence toward common policies and interoperable technical solutions.
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Bootstrapping DIs in SDIs
Bootstrapping DIs in SDIs
ADDITIONAL ASPECTS to be considered:
Exploiting institutional coordination and EC policy instruments to bootstrap the PID infrastructure.
Identifying flexible funding schemes to start to bootstrap the interoperability infrastructure.
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Mobilizing resources
Stakeholders at any levels should promote actions to mobilize technical, human, financial resources aiming at triggering a wider demand of usage and exploitation of e-Science results based on DIs.
Mobilizingresources
1. Funding agencies should design funding schemes, which may attract new public and private investments and efforts in developing and adopting DI-based added value services and solutions.
2. Stakeholders, and especially funding agencies, should foster interoperability based on consolidation of established DI systems (where possible) more than on proliferation of ad hoc systems.
3. Actions should be taken to mobilize consolidated technical skills to implement effective digital identifiers infrastructures within SDIs and adopt measures to assess the quality and impact of them for the exploitation of e-Science results.
Mobilizing resources
Working on consolidated initiatives (e.g. DOI, ORCID) and promoting their interoperability instead of introducing new solutions.
Enlarging the demand of PID solutions and services by involving very different domains (e.g. HSS and HEP) and evangelizing domains which usually don’t use PIDs.
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ADDITIONAL ASPECTS to be considered:
Rising institutional consensus around the issue of interoperability between data and contributors, and make funding initiatives in this context a priority in the political agenda at national and international level.
Mobilize investments from private and public sectors Promote innovation in scholarship models
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Sustainable solutions
Sustainability
1. Stakeholders need to develop business models where the costs of developing and sustaining identifier infrastructures and the responsibility in granting the long term sustainability of these infrastructures are distributed among the beneficiaries.
2. The flexibility of funding sources should be enhanced, allowing the reallocation of funds in the portfolio to enable the rapid scaling of promising solutions that embed or promote the value (usage) of identifiers.
3. Funding bodies must support the development of collaborative models and actions to create synergies and exchange opportunities between the private/commercial sector and the scientific sector
Sustainable solutions
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Sustainability is crucial for the success of the interoperability layer and depends on the value of services.
Funding models should support the local participation and access to emerging PID infrastructures.
ADDITIONAL ASPECTS to be considered:
Flexible business and sustainability models should be included within the overall framework
Stakeholder participation in the definition of sustainability plans The cross-fertilization and knowledge-sharing between academia and
industry as a big opportunity to increase the potential of innovation in terms of ROI
Conclusions
DIGOIDUNA
ODIN
INTEROPERABILITY INFRASTRUCTURE FOR PIDs IN E-SCIENCE